Midpoint source placement optimizes entanglement distribution over noisy qubit channels, with SDP showing weakly entangled inputs maximize negativity for amplitude damping and depolarizing noise.
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An updated survey of methods to generate absolutely maximally entangled states, with new analyses of reduced-state entanglement, GHZ superpositions, orthogonal frequency square representations, and local unitary equivalence classes.
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Optimizing entanglement distribution via noisy quantum channels
Midpoint source placement optimizes entanglement distribution over noisy qubit channels, with SDP showing weakly entangled inputs maximize negativity for amplitude damping and depolarizing noise.
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Absolutely maximally entangled pure states of multipartite quantum systems
An updated survey of methods to generate absolutely maximally entangled states, with new analyses of reduced-state entanglement, GHZ superpositions, orthogonal frequency square representations, and local unitary equivalence classes.